CN215062991U - High-efficient heat transfer type ground source heat pump - Google Patents

Abstract

The utility model relates to a high-efficient heat transfer type ground source heat pump belongs to indirect heating equipment technical field. The method is characterized in that: comprises an outer frame, wherein the outer frame is in a square cylinder shape with an upper opening and a lower opening; a support frame is arranged on the inner wall of the left vertical surface of the outer frame; one end of the support frame is fixed on the inner wall of the outer frame, and the other end of the support frame is fixed on the replacement grating; a replacement grid is arranged in the outer frame; the replacement grating is a latticed grating body with hollow water paths which are communicated with each other; an inlet and an outlet are arranged on the right vertical surface of the outer frame; the upper end of the replacement grating is communicated with a replacement inlet pipe, and the lower end of the replacement grating is communicated with a replacement outlet pipe; the upper end surface and the lower end surface of the outer frame are respectively provided with an upper butt joint port and a lower butt joint port; the upper butt joint port and the lower butt joint port are provided with intelligent flux adjusting devices. This structure implementation mode is simple and convenient high-efficient, and the installation is overhauld conveniently, and the better product that brings is using experience for the user.

Description

High-efficient heat transfer type ground source heat pump

Technical Field

The utility model relates to a ground source heat pump, concretely relates to high-efficient heat transfer type ground source heat pump belongs to indirect heating equipment technical field.

Background

The ground source heat pump is an important branch in the current heat exchange equipment, and the research and development of the product structure and the product performance are always the key points in the industry. The overall architecture of a conventional ground source heat pump is mature and complete, most of the current product technologies are improved by focusing on detail improvement, and inventors are continuously innovated and improved from the aspect of improving the heat efficiency utilization ratio of products or enriching the functions of the products. The structure of this patent, in order to set up and cooperate the mechanism transformation that flux is adjustable through the heat exchange pipeline of closed to improve ground source heat pump's thermal efficiency and utilize than. Thereby further improving the work efficiency of the product.

Disclosure of Invention

In order to overcome the not enough of prior art, the utility model provides a high-efficient heat transfer type ground source heat pump cooperates through sealed outer frame construction cooperation intelligent flux adjusting device to ground source heat pump's heat exchange efficiency has further been improved.

In order to achieve the technical purpose, the content of the patent is a high-efficiency heat exchange type ground source heat pump, and the equipment comprises an outer frame, wherein the outer frame is in a square cylinder shape with an upper opening and a lower opening; an upper butt joint pipe is arranged above the outer frame, and a lower butt joint pipe is arranged below the outer frame; the outer walls of the upper butt joint pipe and the lower butt joint pipe are respectively provided with an upper clamping convex ring and a lower clamping convex ring; a support frame is arranged on the inner wall of the left vertical surface of the outer frame; one end of the support frame is fixed on the inner wall of the outer frame, and the other end of the support frame is fixed on the replacement grating; a replacement grid is arranged in the outer frame; the replacement grating is a latticed grating body with hollow water paths which are communicated with each other; an inlet and an outlet are arranged on the right vertical surface of the outer frame; the upper end of the replacement grating is communicated with a replacement inlet pipe, and the lower end of the replacement grating is communicated with a replacement outlet pipe; a replacement inlet pipe is sleeved in the inlet, and a replacement outlet pipe is sleeved in the outlet; the upper end surface and the lower end surface of the outer frame are respectively provided with an upper butt joint port and a lower butt joint port; the upper butt joint port and the lower butt joint port are provided with intelligent flux adjusting devices.

Preferably, the intelligent flux adjusting device comprises flux through holes, a switch board, a driving arm, a driving shaft, a driving slide hole and a driving motor, wherein the intelligent flux adjusting device is provided with a plurality of flux through holes, and the switch board is arranged in the flux through holes; the switch board is hinged on the right vertical surface of the flux through hole, a driving slide hole is formed in the switch board, a driving shaft is arranged in the driving slide hole, and the driving shaft is fixed on the driving arm; the driving shaft moves along the driving sliding hole under the driving of the driving arm to drive the switch board to close and open the flux through hole; one end of the driving arm penetrating out of the outer frame is connected with a driving motor.

Preferably, the replacement inlet pipe and the replacement outlet pipe are sleeved with sealing mechanisms.

Preferably, the sealing mechanism comprises a sealing washer, a tensioning cylinder, a tensioning hoop and a fixing nut, and the tensioning cylinder is sleeved on both the replacement inlet pipe and the replacement outlet pipe; one end of the tensioning cylinder extending into the outer frame is sleeved with a sealing washer, and one end of the tensioning cylinder extending out of the outer frame is provided with an external thread; an internal thread is arranged in the fixing nut, and the external thread and the internal thread are meshed with each other; one end of the tensioning cylinder extending into the outer frame is provided with a tensioning hoop, and a sealing gasket is arranged between the tensioning hoop and the wall of the outer frame.

The utility model has the advantages that:

the heat exchange structure of the ground source heat pump is changed into a large-environment closed type heat exchange mode matched with the adjustable local flux, so that the high-efficiency operation of heat efficiency conversion can be realized according to different use conditions and use requirements, and in order to match the structural design, the inventor also adopts a brand-new sealing component in the sealing structure, the assembly conditions of the sealing component to be assembled and disassembled from the outside can be realized, and the high efficiency of the product in the assembling and overhauling processes is improved to a great extent. This structure implementation mode is simple and convenient high-efficient, and the installation is overhauld conveniently, and the better product that brings is using experience for the user.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged schematic view of portion A of FIG. 1;

FIG. 3 is an enlarged schematic view of portion B of FIG. 1;

in the figure: 1. a convex ring is clamped; 2. an upper butt joint pipe; 3. an intelligent flux regulating device; 4. replacing the grid; 5. an outer frame; 6. a support frame; 7. a lower butt joint pipe; 8. the convex ring is clamped down; 9. a replacement pipe; 10. a sealing mechanism; 11. an outlet; 12. an inlet; 13. replacing the inlet pipe; 14. a flux through hole; 15. a drive arm; 16. a drive motor; 17. a drive shaft; 18. a drive slide hole; 19. a switch plate; 20. a tensioning cylinder; 21. tightening the hoop; 22. a sealing gasket; 23. and (5) fixing the nut.

Detailed Description

The present invention will be explained in further detail with reference to the accompanying drawings and detailed description, and the practical operation principle of the technical structure will be summarized.

As shown in fig. 1, the high-efficiency heat exchange type ground source heat pump comprises an outer frame, wherein the outer frame is in a square cylinder shape with an upper opening and a lower opening; an upper butt joint pipe is arranged above the outer frame, and a lower butt joint pipe is arranged below the outer frame; the outer walls of the upper butt joint pipe and the lower butt joint pipe are respectively provided with an upper clamping convex ring and a lower clamping convex ring; a support frame is arranged on the inner wall of the left vertical surface of the outer frame; one end of the support frame is fixed on the inner wall of the outer frame, and the other end of the support frame is fixed on the replacement grating; a replacement grid is arranged in the outer frame; the replacement grating is a latticed grating body with hollow water paths which are communicated with each other; an inlet and an outlet are arranged on the right vertical surface of the outer frame; the upper end of the replacement grating is communicated with a replacement inlet pipe, and the lower end of the replacement grating is communicated with a replacement outlet pipe; a replacement inlet pipe is sleeved in the inlet, and a replacement outlet pipe is sleeved in the outlet; the upper end surface and the lower end surface of the outer frame are respectively provided with an upper butt joint port and a lower butt joint port; the upper butt joint port and the lower butt joint port are provided with intelligent flux adjusting devices.

As shown in fig. 2, the intelligent flux adjusting device includes flux through holes, a switch board, a driving arm, a driving shaft, a driving slide hole and a driving motor, wherein a plurality of flux through holes are provided in the intelligent flux adjusting device, and the switch board is provided in the flux through holes; the switch board is hinged on the right vertical surface of the flux through hole, a driving slide hole is formed in the switch board, a driving shaft is arranged in the driving slide hole, and the driving shaft is fixed on the driving arm; the driving shaft moves along the driving sliding hole under the driving of the driving arm to drive the switch board to close and open the flux through hole; one end of the driving arm penetrating out of the outer frame is connected with a driving motor.

As shown in fig. 3, the replacement inlet pipe and the replacement outlet pipe are both sleeved with sealing mechanisms. The sealing mechanism comprises a sealing washer, a tensioning cylinder, a tensioning hoop and a fixing nut, and the tensioning cylinder is sleeved on the replacement inlet pipe and the replacement outlet pipe; one end of the tensioning cylinder extending into the outer frame is sleeved with a sealing washer, and one end of the tensioning cylinder extending out of the outer frame is provided with an external thread; an internal thread is arranged in the fixing nut, and the external thread and the internal thread are meshed with each other; one end of the tensioning cylinder extending into the outer frame is provided with a tensioning hoop, and a sealing gasket is arranged between the tensioning hoop and the wall of the outer frame.

When the equipment is operated, firstly, a first circulation route is formed by a replacement inlet pipe, a replacement grid and a replacement outlet pipe, a second circulation route is formed by an upper butt joint pipe, an outer frame, an intelligent flux adjusting device and a lower butt joint pipe, and the two circulation routes carry out heat efficiency conversion at the replacement grid; on the other hand, the inventor arranges an intelligent flux adjusting device in the second circulation route so as to control the whole heat exchange efficiency, can adjust the most efficient equipment use efficiency according to different use conditions and use requirements, and simultaneously arranges an upper clamping convex ring and a lower clamping convex ring on the upper butt joint pipe and the lower butt joint pipe, thereby ensuring the sealing performance of the second circulation route.

Related sealing mechanism in this patent through rotatory fixation nut, the unilateral is to the tight section of thick bamboo of trompil mouth position tightening, further through the tightening hoop that sets up on a tightening section of thick bamboo for the pressure of tightening hoop compaction on seal ring progressively increases, thereby realize from the outside alright with the regulation mode of conveniently adjusting the leakproofness, more convenient product assembly and product maintenance have been realized to this mode. Meanwhile, when the intelligent flux adjusting device operates, the temperature in the inlet and outlet pipelines can be sensed through the temperature sensors in the upper butt joint pipe and the lower butt joint pipe, so that the operation of the driving motor is coordinately controlled through the equipment background single chip microcomputer circuit, the driving arm is driven by the driving motor, the displacement of the driving shaft in the driving slide hole is further driven, the switch board is further driven to close and open the flux through hole or suspend at any position along a hinge point in the flux through hole, the material flux in a second circulation route is finally realized, and the efficient thermal efficiency conversion framework is realized.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention. The technical solution of the present invention is not to be departed from, and any simple modification, equivalent change and modification made to the above embodiments according to the technical substance of the present invention still belong to the protection scope of the technical solution of the present invention.

Claims (4)

1. The utility model provides a high-efficient heat transfer type ground source heat pump which characterized in that: comprises an outer frame, wherein the outer frame is in a square cylinder shape with an upper opening and a lower opening; an upper butt joint pipe is arranged above the outer frame, and a lower butt joint pipe is arranged below the outer frame; the outer walls of the upper butt joint pipe and the lower butt joint pipe are respectively provided with an upper clamping convex ring and a lower clamping convex ring; a support frame is arranged on the inner wall of the left vertical surface of the outer frame; one end of the support frame is fixed on the inner wall of the outer frame, and the other end of the support frame is fixed on the replacement grating; a replacement grid is arranged in the outer frame; the replacement grating is a latticed grating body with hollow water paths which are communicated with each other; an inlet and an outlet are arranged on the right vertical surface of the outer frame; the upper end of the replacement grating is communicated with a replacement inlet pipe, and the lower end of the replacement grating is communicated with a replacement outlet pipe; a replacement inlet pipe is sleeved in the inlet, and a replacement outlet pipe is sleeved in the outlet; the upper end surface and the lower end surface of the outer frame are respectively provided with an upper butt joint port and a lower butt joint port; the upper butt joint port and the lower butt joint port are provided with intelligent flux adjusting devices.

2. The efficient heat exchange type ground source heat pump according to claim 1 is prepared, wherein the efficient heat exchange type ground source heat pump comprises the following components: the intelligent flux adjusting device comprises flux through holes, a switch board, a driving arm, a driving shaft, a driving slide hole and a driving motor, wherein the intelligent flux adjusting device is internally provided with a plurality of flux through holes, and the switch board is arranged in the flux through holes; the switch board is hinged on the right vertical surface of the flux through hole, a driving slide hole is formed in the switch board, a driving shaft is arranged in the driving slide hole, and the driving shaft is fixed on the driving arm; the driving shaft moves along the driving sliding hole under the driving of the driving arm to drive the switch board to close and open the flux through hole; one end of the driving arm penetrating out of the outer frame is connected with a driving motor.

3. The efficient heat exchange type ground source heat pump as claimed in claim 2, wherein: sealing mechanisms are sleeved on the replacement inlet pipe and the replacement outlet pipe.

4. The efficient heat exchange type ground source heat pump as claimed in claim 3, wherein: the sealing mechanism comprises a sealing washer, a tensioning cylinder, a tensioning hoop and a fixing nut, and the tensioning cylinder is sleeved on the replacement inlet pipe and the replacement outlet pipe; one end of the tensioning cylinder extending into the outer frame is sleeved with a sealing washer, and one end of the tensioning cylinder extending out of the outer frame is provided with an external thread; an internal thread is arranged in the fixing nut, and the external thread and the internal thread are meshed with each other; one end of the tensioning cylinder extending into the outer frame is provided with a tensioning hoop, and a sealing gasket is arranged between the tensioning hoop and the wall of the outer frame.

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